Bicycle rim

ABSTRACT

A bicycle rim contains a body, multiple fixing bars, and multiple abutting faces. The body includes multiple through orifices, a hub, and multiple threaded orifices. Any two intersected fixing bars are connected with two adjacent through orifices and two threaded orifices corresponding to the two adjacent through orifices respectively. Each fixing bar includes a first screwing section and a second screwing section. The second screwing section is screwed with each of multiple nuts and each of multiple second screw bushings. The multiple abutting faces are connected with the multiple fixing bars respectively. Each fixing bar includes an axial line defined along a center thereof. An angle is defined between each abutting face of the body and the axial line of each fixing bar and is 90 degrees. Two connection sections are defined among each through orifice, two ends of each abutting face, and the inner wall of the body.

FIELD OF THE INVENTION

The present invention relates to a bicycle rim in which the body is connected with the hub securely and does not deform by using each fixing bar.

BACKGROUND OF THE INVENTION

A conventional bicycle rim contains a body, a hub, and multiple fixing bars configured to form a spoke fixed between the body and the hub. The body includes multiple through orifices defined on an inner wall of the body, multiple first ends of the multiple fixing bars are connected with the hub, and multiple second ends of the multiple fixing bars are connected with the multiple fixing bars through the multiple through orifices by ways of multiple connecting elements respectively. However, the multiple fixing bars are extrusion formed from aluminum, an arcuate surface are formed between multiple nuts and the inner wall of the body when the multiple fixing bars are screwed with the multiple nuts by ways of the multiple connection elements respectively, hence the multiple connection elements and the multiple nuts do not contact with the inner wall of the body matingly.

A bicycle rim is disclosed in TW Publication No. M442280 and contains a body, a hub, and multiple fixing bars configured to form a spoke. The body includes multiple coupling elements, each of the multiple coupling elements has an internal segments fixed on an inner wall of the body, and each coupling element has an external segment exposing outside the inner wall of the body. Each fixing bar has a defining segment connected with the hub and has a locking notch defined opposite to the defining segment and connected with each coupling element. However, each coupling element is not screwed on the inner wall of the body, thus the body cannot be connected with each coupling element securely. The present invention has arisen to mitigate and/or obviate the afore-described disadvantages.

SUMMARY OF THE INVENTION

The primary objective of the present invention is to provide a bicycle rim which when each nut and each second screw bushing are screwed with the second screwing section of each fixing bar and connect with each fixing bar by ways of the axial line of each fixing bar, each abutting face of the body and the hub, each nut and each second screw bushing matingly contact with each abutting face so that the body is connected with the hub securely and does not deform by using each fixing bar.

To obtain the above mentioned objective, a bicycle rim provided by the present invention contains: a body, multiple fixing bars, and multiple abutting faces.

The body includes multiple through orifices defined around an inner wall of the body, a hub fixed on a center of the body, and multiple threaded orifices arranged around two side surfaces of the hub and corresponding to the multiple through orifices respectively.

Any two intersected fixing bars are connected with two adjacent through orifices and two threaded orifices which correspond to the two adjacent through orifices respectively. Each of the multiple fixing bars includes a first screwing section formed on a first end of each fixing bar, and each fixing bar further includes a second screwing section formed on a second end thereof, such that the first screwing section is inserted through each through orifice to screw with each threaded orifice of the hub and each of multiple first screw bushings, and the second screwing section is screwed with each of multiple nuts and each of multiple second screw bushings. Each nut is located on the inner wall of the body, and each second screw bushing is located on an outer wall of the body.

The multiple abutting faces are formed on the inner wall of the body and connected with the multiple fixing bars respectively. Each fixing bar includes an axial line defined along a center thereof, an angle is defined between each abutting face of the body and the axial line of each fixing bar and is 90 degrees, two connection sections are defined among each through orifice, two ends of each abutting face, and the inner wall of the body, such that each nut and each second screw bushing are screwed with the second screwing section of each fixing bar and the body, and each nut and each second screw bushing matingly contact with each abutting face.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view showing the assembly of a bicycle rim according to a preferred embodiment of the present invention.

FIG. 2 is a perspective view showing the exploded components of the bicycle rim according to the preferred embodiment of the present invention.

FIG. 3 is a perspective view showing the exploded components of a part of the bicycle rim according to the preferred embodiment of the present invention.

FIG. 4 is a side view showing the assembly of the bicycle rim according to the preferred embodiment of the present invention.

FIG. 5 is a cross sectional view taken along the line 4-4 of FIG. 4.

FIG. 6 is a cross sectional view of a part of FIG. 5.

FIG. 7 is a cross sectional view of another part of FIG. 5.

FIG. 8 is a cross sectional view of another part of FIG. 5.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

With reference to FIGS. 1-8, a bicycle rim according to a preferred embodiment of the present invention comprises:

a body 10 including multiple through orifices 12 defined around an inner wall of the body 10, a hub 50 fixed on a center of the body 10, multiple threaded orifices 51 arranged around two side surfaces of the hub 50 and corresponding to the multiple through orifices 12 respectively, and multiple fixing bars 20, wherein any two intersected fixing bars 20 are connected with two adjacent through orifices 12 and two threaded orifices 51 which correspond to the two adjacent through orifices 12 respectively, each of the multiple fixing bars 20 includes a first screwing section 21 formed on a first end of each fixing bar 20, and each fixing bar 20 further includes a second screwing section 22 formed on a second end thereof, such that the first screwing section 21 is inserted through each through orifice 12 to screw with each threaded orifice 51 of the hub 50 and each of multiple first screw bushings 60, and the second screwing section 22 is screwed with each of multiple nuts 30 and each of multiple second screw bushings 40, wherein each nut 30 is located on the inner wall of the body 10, and each second screw bushing 40 is located on an outer wall of the body 10; and

multiple abutting faces 11 formed on the inner wall of the body 10 and connected with the multiple fixing bars 20 respectively, wherein each fixing bar 20 includes an axial line Y defined along a center thereof, an angle V is defined between each abutting face 11 of the body 10 and the axial line Y of each fixing bar 20 and is 90 degrees, two connection sections 111 are defined among each through orifice 12, two ends of each abutting face 11, and the inner wall of the body 10, such that each nut 30 and each second screw bushing 40 are screwed with the second screwing section 22 of each fixing bar 20 and the body 10, and each nut 30 and each second screw bushing 40 matingly contact with each abutting face 11.

Each nut 30 has a first inner threaded portion 31, and each second screw bushing 40 has a second inner threaded portion 42 and an external screwing section 41, wherein a diameter of the first inner threaded portion 31 of each nut 30 is equal to that of the external screwing section 41 of each second screw bushing 40, and a diameter of the second inner threaded portion 42 of each second screw bushing 40 is equal to that of the second screwing section 22 of each fixing bar 20. Each second screw bushing 40 has a noncircular notch 43 defined on an end thereof opposite to the second inner threaded portion 42, and the noncircular notch 43 is configured to connect with a hand tool so as to rotate each second screw bushing 40 by using the hand tool. The second inner threaded portion 42 of each second screw bushing 40 is extended out of the inner wall of the body 10 via each through orifice 12. Thereafter, the second screwing section 22 of each fixing bar 20 is screwed with the second inner threaded portion 42 of each second screw bushing 40, and the first inner threaded portion 31 of each nut 30 is screwed with the external screwing section 41 of each second screw bushing 40.

Each fixing bar 20 further includes a peripheral rib 23 extending adjacent to the first screwing section 21 and configured to fix the each threaded orifice 51 of the hub 50, and the first screwing section 21 of each fixing bar 20 is screwed with each first screw bushings 60.

When each nut 30 and each second screw bushing 40 are screwed with the second screwing section 22 of each fixing bar 20 and connect with each fixing bar 20 by ways of the axial line Y of each fixing bar 20, each abutting face 11 of the body 10 and the hub 50, each nut 30 and each second screw bushing 40 matingly contact with each abutting face 11 so that the body 10 is connected with the hub 50 securely and does not deform by using each fixing bar 20.

While the preferred embodiments of the invention have been set forth for the purpose of disclosure, modifications of the disclosed embodiments of the invention as well as other embodiments thereof may occur to those skilled in the art. Accordingly, the appended claims are intended to cover all embodiments which do not depart from the spirit and scope of the invention. 

What is claimed is:
 1. A bicycle rim comprising: a body including multiple through orifices defined around an inner wall of the body, a hub fixed on a center of the body, multiple threaded orifices arranged around two side surfaces of the hub and corresponding to the multiple through orifices respectively; multiple fixing bars, wherein any two intersected fixing bars are connected with two adjacent through orifices and two threaded orifices which correspond to the two adjacent through orifices respectively, wherein each of the multiple fixing bars includes a first screwing section formed on a first end of each fixing bar, and each fixing bar further includes a second screwing section formed on a second end thereof, such that the first screwing section is inserted through each through orifice to screw with each threaded orifice of the hub and each of multiple first screw bushings, and the second screwing section is screwed with each of multiple nuts and each of multiple second screw bushings, wherein each nut is located on the inner wall of the body, and each second screw bushing is located on an outer wall of the body; and multiple abutting faces formed on the inner wall of the body and connected with the multiple fixing bars respectively, wherein each fixing bar includes an axial line defined along a center thereof, an angle is defined between each abutting face of the body and the axial line of each fixing bar and is 90 degrees, two connection sections are defined among each through orifice, two ends of each abutting face, and the inner wall of the body, such that each nut and each second screw bushing are screwed with the second screwing section of each fixing bar and the body, and each nut and each second screw bushing matingly contact with each abutting face.
 2. The bicycle rim as claimed in claim 1, wherein each nut has a first inner threaded portion, and each second screw bushing has a second inner threaded portion and an external screwing section, wherein a diameter of the first inner threaded portion of each nut is equal to that of the external screwing section of each second screw bushing, and a diameter of the second inner threaded portion of each second screw bushing is equal to that of the second screwing section of each fixing bar, each second screw bushing has a noncircular notch defined on an end thereof opposite to the second inner threaded portion, and the noncircular notch is configured to rotate each second screw bushing, wherein the second inner threaded portion of each second screw bushing is extended out of the inner wall of the body via each through orifice, the second screwing section of each fixing bar is screwed with the second inner threaded portion of each second screw bushing, and the first inner threaded portion of each nut is screwed with the external screwing section of each second screw bushing.
 3. The bicycle rim as claimed in claim 1, wherein each fixing bar further includes a peripheral rib extending adjacent to the first screwing section and configured to fix the each threaded orifice of the hub. 